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New lab to open to make cutting-edge CAR-T cells in Cambridge

A new state-of-the-art laboratory is set to open at Addenbrooke’s Hospital that will deliver ‘home-grown’ CAR-T cells to help improve treatment for blood cancers.

A laboratory
Brand new clean-rooms/ Cambridge Cellular Therapy Laboratory

It’s hoped the Cambridge lab will be one of only a handful of sites across the UK able to manufacture the cutting-edge cells for use in clinical trials, and to develop new CAR-T cell therapies against different cancers and auto-immune diseases.

The lab, being built by the University of Cambridge and run by Cambridge University Hospitals NHS Foundation Trust (CUH), is a short walk from Addenbrooke's Hospital.

CAR-T, or chimeric antigen reception T cell therapy, is offered to adult patients with aggressive B-cell lymphomas and acute lymphoblastic leukaemia (ALL), who have either relapsed, or not responded well to chemotherapy or a stem cell transplant.

Addenbrooke’s became the first hospital in the East of England to offer the revolutionary cancer treatment and the hospital has now treated over a hundred adult CAR-T patients from the region. The pioneering immunotherapy works by re-engineering or “supercharging” a patient’s own immune system, training their own immune cells known as T-cells, to fight and destroy the cancer.

CAR-T cell therapy is a living treatment in that once the cells are given to a patient, they persist for many months or even years, ready to attack the cancer cells should they pop up again.

Watch how CAR-T cell therapy is helping patients at Addenbrooke's

Link: https://youtu.be/NgpktwQqsIQ

Transcript

00:00:00:01 - 00:00:05:02

We found out that the bone marrow

hadn't actually done as they expected.

00:00:05:02 - 00:00:09:23

So we were, not sort of back

to square one, but, you know.

00:00:09:23 - 00:00:12:19

But then they offered

this CAR-T cell treatment.

00:00:12:19 - 00:00:16:08

From then on, we've been going through

that little journey.

00:00:16:10 - 00:00:19:05

It's a privilege really to be allowed,

00:00:19:05 - 00:00:22:15

because certain people

can't have access to it.

00:00:22:17 - 00:00:27:10

CAR-T cells are a personalised treatment,

you take a patient's own immune cells

00:00:27:12 - 00:00:30:17

and you supercharge them

so that they, instead of attacking

00:00:30:17 - 00:00:34:17

lots of different things, attack

the cancer cells that a patient has, or,

00:00:34:17 - 00:00:40:03

in autoimmune diseases, the immune cells

that might be causing immune problems.

00:00:40:05 - 00:00:44:14

They’re a really good way of getting rid

of cells in the body that you don't want.

00:00:44:16 - 00:00:47:08

A lot of those other,

more conventional treatments need repeated

00:00:47:08 - 00:00:50:08

doses, make people unwell

for a very long time.

00:00:50:11 - 00:00:55:07

CAR-T cell therapy, being a living

treatment are giving us a one off therapy.

00:00:55:07 - 00:00:59:05

So they’re infused into a patient,

and then because they're living cells,

00:00:59:05 - 00:01:01:17

they persist for months or even years.

00:01:01:17 - 00:01:04:04

That means that they're still there,

if a cancer cell

00:01:04:04 - 00:01:08:00

thinks about rearing its head

and turning into a lump of cancer.

00:01:08:02 - 00:01:09:12

There are the CAR-T cells

00:01:09:12 - 00:01:12:04

waiting to knock it down

before it turns into cancer again.

00:01:12:04 - 00:01:16:22

A new state-of-the-art clean room

00:01:16:22 - 00:01:23:12

is set to open on the Addenbrookes site.

00:01:23:12 - 00:01:24:01

It will be one of a handful of sites

in the UK

00:01:24:01 - 00:01:24:12

able to manufacture

CAR-T cells for clinical trials.

00:01:24:12 - 00:01:29:11

This is a brand new lab,

completely state-of-the-art,

00:01:29:13 - 00:01:34:24

designed specifically for handling cell

therapy products for human use.

00:01:35:01 - 00:01:38:14

There are already a number of commercial

cell therapy products available.

00:01:38:18 - 00:01:42:24

This means that we have to buy them in

for our patients as an NHS Trust.

00:01:43:01 - 00:01:47:05

What this lab will enable us to do

is to manufacture our own products here

00:01:47:05 - 00:01:52:04

on site for our own patients, and also

fill the gap for the needs of patients

00:01:52:04 - 00:01:55:04

that will come to the new Cambridge

Cancer Research Hospital.

00:01:55:04 - 00:02:00:19

So for me, having this space in Cambridge

is the missing part

00:02:00:19 - 00:02:06:06

of the puzzle, for slingshotting

cell therapies from bench to bedside.

The announcement comes as Cambridge University Hospitals NHS Foundation Trust has just been awarded £1.4m worth of grant funding from the National Institute of Health Research (NIHR) to help supply the equipment for the laboratory’s research, and to deliver more clinical trials to patients across the East of England.

The new clean-rooms, set to open in the next 12-18 months, will expand the facilities of the current Cambridge Cellular Therapy Laboratory at Addenbrooke’s, to help deliver more treatments to more patients, in readiness for the new Cambridge Cancer Research Hospital on track to be built by 2029.

A lady smiling in a laboratory
Sarah Albon

Sarah Albon is the director of the Cambridge Cellular Therapy Laboratory (CCTL) at Addenbrooke’s. She leads a team that is critical to the delivery of CAR-T cell therapies and bone marrow and stem cell transplants for patients from across the whole of the East of England.

Albon said: “At the moment, there are a number of novel cell therapy products available commercially, but as an NHS Trust we have to buy them in for our patients.

“Having this state-of-the-art space is the missing part of the puzzle for bringing cell therapies from the research bench to bedside.

“It will enable us to translate research into high-quality medicine, readily available for our patients and the new Cambridge Cancer Research Hospital, planned to be built here in Cambridge.”

A woman smiling while on a boat
Lisa Noble, CAR-T patient

Lisa Noble, a mum-of-five from Bishop Stortford, was one of the first patients to receive CAR-T cell therapy at Addenbrooke’s at 54 years-old. After being diagnosed with a type of non-Hodgkin lymphoma called Diffuse Large B Cell Lymphoma (DLBCL), Lisa’s cancer wasn’t responding to chemotherapy (R-CHOP and salvage therapy), nor was she able to have a stem-cell transplant.

“It was my only option and my last hope,” said Lisa. Although it took Lisa up to six months to recover, she was cancer-free and in remission within two months of having the CAR-T therapy.

“It was an amazing feeling,” said Lisa.

“I felt unlucky at the time, but if I hadn’t failed the first two treatments, I probably wouldn’t be where I am now, or cancer-free so quickly.

“My daughter delayed her wedding for me, which I finally got to see. I’ve now got seven grandchildren and another on the way. I wouldn’t have been here to see them grow up if the CAR-T didn’t work. I now have a big family around me and it’s just incredible.”

A man in a lab smiling
Dr Ben Uttenthal

Dr Ben Uttenthal, clinical lead for the CAR-T cell therapy programme at Addenbrooke’s and Co-Director of the Cancer Research UK Cambridge Centre’s Cancer Immunology Programme, said:

“For some types of aggressive cancer we are finding that we can cure more than double the number of patients using CAR-T cell therapy. It’s been a game-changing treatment – and we’re only just scratching the surface of what’s possible.

“The University of Cambridge has world-leading expertise in identifying new targets for CAR-T cells to treat other kinds of cancers. This funding from the NIHR will give a huge boost to our ability to manufacture these new CAR-T cells for different cancers so that we can offer them to patients in clinical trials.

“In the future, if our clinical trials are successful, we can then look to scale up and roll out treatments nationally and globally, and that’s a really exciting prospect.”

How CAR-T therapy works

Blood is collected from the patient and their T cells are isolated.

The ‘T cells’ are sent overseas and manufactured into personalised CAR-T cell therapies by large pharmaceutical companies, typically in the US or the Netherlands.

The T cells are reprogrammed to carry a protein called the chimeric antigen receptor (CAR), which recognises the specific cancer cells.

The modified and personalised CAR-T cells are then grown into large numbers, shipped back to the UK and re-infused back into the patient “supercharged” to fight the patient’s cancer.

You can read more about CAR-T therapy in Cambridge and how it works here (opens in a new tab).